Touch panel device and method for manufacturing the same

A touch panel device is provided, having a cover plate, a first mask layer, a signal trace layer and a second mask layer. The cover plate has a visible area and a shield area at a side of the visible area. The shield area is divided into first, second area, third areas sequentially from the visible area to an edge of the shield area. The first mask layer disposed in the first and second areas of the shield area over a surface of the cover plate, wherein the first mask layer has a flat surface. The signal trace layer is disposed in the first area of the shield area over the flat surface. The second mask layer is at least disposed in the third area near the edge of the cover plate. A viscosity of the second mask layer is larger than a viscosity of the first mask layer.

Touch panel module, touch device and manufacturing method thereof

A touch panel module includes a substrate, a sensor layer disposed on the substrate, a first glue layer disposed on the sensor layer and an anti-electromagnetic interference layer disposed on the first glue layer. The touch panel module with anti-electromagnetic interference can be formed independently, and may be combined with other electronic device to form a touch device, thereby reducing the thickness of the touch device and simplifying the process steps.

Touch panel with function of fingerprint identification

A touch panel includes a substrate, a touch sensing structure and a fingerprint identification module. The touch sensing structure is disposed on the substrate. The fingerprint identification module is directly adhered to the substrate. The touch sensing structure and the fingerprint identification module are located at the same side of the substrate.

Touch panel and a manufacturing method thereof

A touch panel is provided in the present disclosure, comprising: a sensing patterned layer, comprising a plurality of first sensing electrode units not in contact with each other along first axis; and a bridging line, electrically connected with the adjacent first sensing electrode units along the first axis; wherein the bridging line are made by at least a metallic layer and a conductive oxidized layer. By this way, the touch panel lowers light reflection, thereby reducing flashes and bright-spots on the touch panel and improving appearance of the touch panel.

Touch device and fabrication method thereof

The present disclosure relates to a touch technology, and more particularly to a touch device and a fabrication method thereof. The touch device comprises a sensing area and a peripheral area. The touch device further comprises a sensing electrode layer, a shading layer, a signal transmission line layer, and a conductive layer. The sensing electrode layer extends from the sensing area to the peripheral area. The shading layer is disposed on the peripheral area to overlay the sensing electrode layer and has a through hole to expose a portion of the sensing electrode layer. The signal transmission line layer is disposed on the shading layer and does not cover the through hole. The conductive layer fills the through hole and electrically connects the sensing electrode layer. In addition, a fabrication, method of a touch device is also provided.

Touch panel and manufacturing method thereof

A touch panel includes a strengthen cover lens and a touch electrode layer. The strengthen cover lens includes a first non-planar sulfate, and is planned with a display region and a peripheral region surrounding the display region. The touch electrode layer is formed, on the first non-planar surface and overlaid on the display region and at least part of the peripheral region for manufacturing a non-planar touch panel.

TRANSPARENT CONDUCTIVE OXIDE FILM FOR SENSING DEFORMATION

A transparent conductive oxide film for sensing deformation has a length, and generates a deformation amount when an external force is applied thereto, so as to change a resistance value of the transparent conductive oxide film. A ratio of the deformation amount to the length ranges from about 5×10to about 3.5×10, and a rate of change of the resistance value ranges from about 0.01% to about 3%. 1. A transparent conductive oxide film for sensing deformation having a length , and generating a deformation amount by applying an external force so as to change a resistance value of the transparent conductive oxide film , a ratio of the deformation amount to the length ranging from about 5×10to about 3.5×10 , and a rate of change of the resistance value ranging from about 0.01% to about 3%.2. The transparent conductive oxide film for sensing deformation of claim 1 , wherein the transparent conductive oxide film is an indium tin oxide film.3. The transparent conductive oxide film for sensing deformation of claim 2 , wherein the indium tin oxide film has a number of oxygen vacancies claim 2 , as a result of a gas being introduced when preparing the indium tin oxide film to regulate the concentration of oxygen vacancies in the indium tin oxide film.4. The transparent conductive oxide film for sensing deformation of claim 3 , wherein introducing the gas allows the rate of change of the resistance value of the indium tin oxide film to increase.5. The transparent conductive oxide film for sensing deformation of claim 4 , wherein the gas has oxygen claim 4 , argon claim 4 , and hydrogen claim 4 , and a ratio of a volume of oxygen to a volume of the gas ranges from about 0.1% to about 10%.6. The transparent conductive oxide film for sensing deformation of claim 5 , wherein the ratio of the volume of oxygen to the volume of the gas ranges from about 1% to about 2%.7. The transparent conductive oxide film for sensing deformation of claim 2 , wherein a band gap of the indium tin ...

Touch Panel with Fingerprint Identification Function and Method for Fabricating the Same

A touch panel with a fingerprint identification function includes a cover plate, a mask layer, a flexible substrate, and a fingerprint sensing array. The mask layer is disposed on the cover plate for defining an operating, region and a non-operating, region of the touch panel. The flexible substrate is disposed on the mask layer and at least in the non-operating region. The fingerprint sensing array is directly disposed on the flexible substrate in the non-operating region. Through the configuration that the fingerprint sensing array is disposed on the flexible substrate, the distance between the fingerprint sensing array and a user's fingers is reduced, thereby increasing the sensitivity of fingerprint identification. 1. A touch panel with a fingerprint identification function , comprising:a cover plate;a mask layer disposed on the cover plate for defining an operating region and a non-operating region of the touch panel;a flexible substrate disposed on the mask layer and at least in the non-operating region; anda fingerprint sensing array directly disposed on the flexible substrate in the non-operating region.2. The touch panel of claim 1 , wherein the flexible substrate is an adhesive gel claim 1 , such that the flexible substrate adheres to the mask layer directly.3. The touch panel of claim 2 , wherein a thickness of the flexible substrate is in a range from 5 micrometers to 35 micrometers.4. The touch panel of claim 1 , further comprising:a touch sensing array, wherein the flexible substrate is disposed both in the operating region and the non-operating region, and the touch sensing array is disposed on the flexible substrate in the operating region.5. The touch panel of claim 1 , wherein the fingerprint sensing array is formed on the flexible substrate initially and then bonded with the cover plate.6. The touch panel of further comprising:an adhesive layer configured to bond the flexible substrate with tire cover plate.7. The touch panel of claim 6 , wherein ...

TOUCH PANEL AND A MANUFACTURING METHOD THEREOF

A touch panel and a method of manufacturing the same are provided. The touch panel comprises: a cover substrate comprising a visible area and a non-visible area, wherein the non-visible area is located in a peripheral area of the visible area; an electrode layer formed on the visible area and the non-visible area of the cover substrate; a conductive masking layer formed on the non-visible area and disposed on a part of the electrode layer that is located on the non-visible area; and a plurality of connecting wires formed on the conductive masking layer and electrically connected to the electrode layer through uniaxial conduction of the conductive masking layer. The present disclosure comprises a method of manufacturing the touch panel. Accordingly, product yield is increased and touch sensing precision is maintained. 1. A touch panel , comprising:a cover substrate comprising a visible area and a non-visible area, wherein the non-visible area is located in a peripheral area of the visible area;an electrode layer formed on the visible area and the non-visible area of the cover substrate;a conductive masking layer formed on the non-visible area and disposed on a part of the electrode layer located on the non-visible area; anda plurality of connecting wires formed on the conductive masking layer and electrically connected to the electrode layer through uniaxial conduction of the conductive masking layer.2. The touch panel of claim 1 , wherein the electrode layer comprises a plurality of first sensing electrodes aligned along a first axis and a plurality of second sensing electrodes aligned along a second axis claim 1 , and wherein the first sensing electrodes and the second sensing electrodes are insulated from each other.3. The touch panel of claim 2 , wherein each of the first sensing electrodes comprises a plurality of first conductive units and a plurality of first conductive wires connecting two adjacent first conductive units on the first axis claim 2 , and ...

Touch panel and fabrication method thereof

A touch panel and a fabricating method thereof are provided in the instant disclosure. The touch panel having a non-display area and a display area includes a shielding layer disposed on a side of a substrate and defining the non-display area on the substrate; a sensing electrode layer disposed on the substrate at the same side as the shielding layer, wherein at least one portion of the sensing electrode layer is disposed on a surface of the substrate in the display area; a first protecting layer disposed in the display area and covering the sensing electrode layer; and a second protecting layer disposed in the non-display area and covering the shielding layer. By modifying the structure of the protecting layer, the height difference between the sensing electrode layer and the shielding layer may not cause the color difference due to the non-uniform protecting layer.

TOUCH CONTROL APPARATUS WITH FINGERPRINT IDENTIFICATION FUNCTION

A touch control apparatus with fingerprint identification function includes a substrate body with a visible region, a plurality of first primary electrodes, a plurality of second primary electrodes, and a fingerprint identification region located in the visible region. The first primary electrodes and the second primary electrodes are mounted in the visible region for sensing a touch coordinate when an object touches on the visible region. The first secondary electrodes are crossly arranged and insulated from the second secondary electrodes in the fingerprint, identification region. Further, a part of the first primary electrodes and the second primary electrodes are extended to the fingerprint identification region. When a user performs a fingerprint identification function, all electrodes in the fingerprint identification region are used to detect and identify the user's fingerprint. 1. A touch control apparatus with fingerprint identification function , comprising:a substrate body having a visible region;a plurality of first primary electrodes crossing and insulated from a plurality of second primary electrodes in the visible region; anda fingerprint identification region located in the visible region, and a plurality of first secondary electrodes being crossly arranged and insulated from a plurality of second secondary electrodes in the fingerprint identification region; wherein an arrangement density of the first secondary electrodes and the second secondary electrodes is higher than an arrangement density of the first primary electrodes and the second primary electrodes;wherein a part of the first primary electrodes and the second primary electrodes are extended to the fingerprint identification region, and a line width of each first primary electrode and a line width of each second primary electrode in the fingerprint identification region are less than a line width of each first primary electrode and a line width of each second primary electrode out of the ...

TOUCH DEVICE

A touch device comprises a touch sensing structure, a cover lens, a first mask layer, a second mask layer and a fingerprint identification structure. The cover lens has a first surface and a second surface opposite to the first surface. The cover lens has a groove; the groove is disposed on the second surface and has a top surface and side surfaces adjacent to the top surface. The first mask layer covers the top surface of the groove. The second mask surface covers the side surface of the groove. The color of the first mask layer and the second mask layer are different. At least a portion of the fingerprint identification structure is disposed on the top surface in the groove. The touch sensing structure is disposed on the second surface. 1. A touch device , comprising:a cover lens having a first surface and a second surface opposite to the first surface, and the first surface is a touch surface;a groove disposed on the second surface, and having a top surface and a side surface adjacent to the top surface;a first mask layer covering the top surface of the groove;a second mask layer covering the side surface of the groove, wherein the color of the first mask layer and the color of the second mask layer are different;a fingerprint identification structure, wherein at least a portion of the fingerprint identification structure is disposed on the top surface in the groove; anda touch sensing structure disposed on the second surface.2. The touch device of claim 1 , wherein the orthographic projection of the first mask layer on the first surface is a fingerprint identification area claim 1 , the orthographic projection of the second mask layer on the first surface is a fingerprint labeled area claim 1 , and the fingerprint identification area is surrounded by the fingerprint labeled area.3. The touch device of claim 2 , wherein the first mask layer further covers a peripheral area of the second surface to form a frame area claim 2 , and the fingerprint identification ...

TOUCH PANEL AND MANUFACTURE METHOD THEREOF

A touch panel includes a cover plate, a light transmissive separating layer, an opaque layer and a touch sensing layer. The cover plate has an inner surface and a plate lateral surface adjoined to each other. The inner surface has a first portion and a second portion adjoined to each other. The light transmissive separating layer covers the first portion and has a peripheral zone and a central zone. The peripheral zone surrounds the central zone. The light transmissive separating layer has a light transmissive lateral surface distal to the central zone. The opaque layer covers the peripheral zone and has an opaque outer lateral surface substantially aligned with the light transmissive lateral surface. The touch sensing layer is located on the central zone, and the light transmissive separating layer separates the cover plate and the touch sensing layer. 1. A touch panel , comprising:a cover plate having an inner surface and a plate lateral surface adjoined to each other, the inner surface having a first portion and a second portion adjoined to each other;a light transmissive separating layer covering the first portion and having a peripheral zone and a central zone, the peripheral zone surrounding the central zone, the light transmissive separating layer having a light transmissive lateral surface distal to the central zone;an opaque layer covering the peripheral zone and having an opaque outer lateral surface substantially aligned with the light transmissive lateral surface, the light transmissive lateral surface and the opaque outer lateral surface shrinking relative to the plate lateral surface and exposing the second portion of the inner surface; anda touch sensing layer located on the central zone, the light transmissive separating layer separating the cover plate and the touch sensing layer.2. The touch panel of claim 1 , further comprising an adhesive layer at least covering the second portion of the inner surface claim 1 , wherein the adhesive layer and the ...

TOUCH PANEL AND FABRICATION METHOD THEREOF

A touch panel and a fabricating method thereof are provided in the instant disclosure. The touch panel having a non-display area and a display area includes a shielding layer disposed on a side of a substrate and defining the non-display area on the substrate; a sensing electrode layer disposed on the substrate at the same side as the shielding layer, wherein at least one portion of the sensing electrode layer is disposed on a surface of the substrate in the display area; a first protecting layer disposed in the display area and covering the sensing electrode layer; and a second protecting layer disposed in the non-display area and covering the shielding layer. By modifying the structure of the protecting layer, the height difference between the sensing electrode layer and the shielding layer may not cause the color difference due to the non-uniform protecting layer. 1. A touch panel defining a non-display area and a display area , the touch panel comprising:a shielding layer disposed on a side of a substrate, wherein an area of the substrate covered by the shielding layer defines the non-display area;a sensing electrode layer disposed on the substrate at the same side as the shielding layer, wherein at least a portion of the sensing electrode layer superimposes the display area;a first protecting layer disposed on the display area and covering the sensing electrode layer; anda second protecting layer disposed on the non-display area and covering the shielding layer.2. The touch panel according to claim 1 , wherein the first protecting layer is a refractive index compensating layer and the second protecting layer is an attaching layer.3. The touch panel according to claim 2 , wherein the refractive index compensating layer is made of a material selected from a group consisting of metal oxide claim 2 , a non-mental oxide claim 2 , a silicon-based material and the combination thereof.4. The touch panel according to claim 2 , wherein the refractive index compensating ...

Glass plate, method for manufacturing the same, and display device, touch sensitive display using the same

The present invention can achieve the purpose of enhancing the strength and the anti-crack ability of a glass plate. The glass plate includes a transparent glass-based element and a high polymer plastic membrane. The high polymer plastic membrane is framed on at least one part of the peripheral side of the transparent glass-based element and performs a capillary action on at least one part in a liquid state and then to be combined tightly with the transparent glass-based element after being solidified.

TOUCH CONTROL DEVICE

A touch control device includes a cover lens, a groove, a fingerprint, and a touch sensing structure. The cover lens has a first surface and a second surface opposite to the first surface, in which the first surface is a touch surface. The groove is disposed on the second surface and has a top surface and a side surface adjacent to the top surface, in which an angle between the top surface and the side surface is greater than 90°. The fingerprint recognition structure is at least partially disposed on the top surface of the groove. The touch sensing structure is disposed on the second surface. 1. A touch control device , comprising:a cover lens having a first surface and a second surface opposite to the first surface, wherein the first surface is a touch surface;a groove disposed on the second surface and having a top surface and a side surface adjacent to the top surface, wherein an angle between the top surface and the side surface is greater than 90°;a fingerprint recognition structure at least partially disposed on the top surface of the groove; anda touch sensing structure disposed on the second surface.2. The touch control device of claim 1 , wherein the angle between the top surface and the side surface is in a range from 95° to 175°.3. The touch control device of claim 2 , wherein the angle between the top surface and the side surface is in a range from 110° to 165°.4. The touch control device of claim 1 , wherein a surface of the fingerprint recognition structure near the top surface of the groove is a top surface of the fingerprint recognition structure claim 1 , and a minimum distance between the top surface of the fingerprint recognition structure and the first surface of the cover lens is in a range from 50 μm to 450 μm.5. The touch control device of claim 4 , wherein the minimum distance between the top surface of the fingerprint recognition structure and the first surface of the cover lens is in a range from 80 μm to 400 μm.6. The touch control device ...

TOUCH CONTROL DEVICE

A touch control device is provided. A protective cover protects the touch control device and includes a top-surface to sustain a touch action performed by the user. A flat touch sensing layer includes many first direction-detection electrodes second direction-detection electrodes. The fast and second direction-detection electrodes are isolated by a transparent insulating material at the position where the first direction-detection electrodes cross the second direction-detection electrodes. The first and second direction-detection electrodes constitute a flat sensing pattern. A pressure-sensing layer is disposed between the protective cover and the flat touch sensing layer and includes at least one pressure-sensing unit constituting a first pattern. The overlap ratio between the projection of the first pattern onto the flat touch sensing layer and the flat sensing pattern is less than or equal to about 5% of the flat sensing pattern. 1. A touch control device , comprising:a protective cover configured to protect the touch control device and comprising a top-surface to sustain a touch action performed by a user;a flat touch sensing layer comprising a plurality of first direction-detection electrodes and a plurality of second direction-detection electrodes, wherein the first and second direction-detection electrodes are isolated from each other by a transparent insulating material at the position where the first direction-detection electrodes cross the second direction-detection electrodes, and the first and second direction-detection electrodes constitute a flat sensing pattern; anda pressure-sensing layer disposed between the protective cover and the flat sensing touch layer and comprising at least one pressure-sensing unit constituting a first pattern, wherein an overlap ratio between the projection of the first pattern onto the flat touch sensing layer and the flat sensing pattern is less than or equal to about 5% of the flat sensing pattern.2. The touch control ...

Touch panel and method of manufacturing a touch panel

The present invention discloses a touch panel and a method of manufacturing a touch panel, to reduce the visibility of the transparent etching line of the transparent electrodes on the touch panel. The touch panel comprises a plurality of transparent electrode disposed distantly on the transparent conductive layer and the passivation layer of a transparent substrate, where the passivation layer covering the transparent conductive layer, to make the refractive index of the passivation layer and the transparent electrodes match with each other. Oxide with high refractive index added in the passivation material is filled in the etched area of the transparent conductive layer, so that the optical refractive index of the etched area and ITO area on transparent conductive layer become closer, and the difference in refractive index curve between ITO area and etched area is reduced, therefore, the effect of making the transparent electrode pattern is achieved.

MULTI-FORCE TOUCH SENSING METHOD AND MULTI-FORCE TOUCH MODULE

A multi-force touch module includes first sensing electrodes disposed along X coordinate and second sensing electrodes disposed along Y coordinate. A multi-force touch sensing method for the multi-force touch module includes the following steps: detecting press position information, determining whether press positions are located at a same position on X axis, and detecting resistance values of the press positions on X axis or Y axis according to a result thus determined; and determining magnitudes of pressing forces at the press positions according to magnitudes of the resistance values.

TOUCH PANEL AND A MANUFACTURING METHOD THEREOF

A touch panel is provided in the present disclosure, comprising: a sensing patterned layer, comprising a plurality of first sensing electrode units not in contact with each other along first axis; and a bridging line, electrically connected with the adjacent first sensing electrode units along the first axis; wherein the bridging line are made by at least a metallic layer and a conductive oxidized layer. By this way the touch panel lowers light reflection, thereby reducing flashes and bright-spots on the touch panel and improving appearance of the touch panel. 1. A touch panel , comprising:a sensing patterned layer, comprising a plurality of first sensing electrode units not in contact with each other along first axis; anda bridging line, electrically connected with the adjacent first sensing electrode units along the first axis; wherein the bridging line are made by at least a metallic layer and a conductive oxidized layer.2. The touch panel of claim 1 , further comprising a substrate on which the sensing patterned layer is disposed.3. The touch panel of claim 1 , wherein the metallic layer of the bridging line connects to the adjacent first electrode units.4. The touch panel of claim 1 , wherein the conductive oxidized layer of the bridging line connects to the adjacent first electrode units.5. The touch panel of claim 1 , further comprising a plurality of second sensing electrode units distributed along second axis claim 1 , and wherein the first sensing electrode units are electrically connected with each other via the bridging line to form a first sensing array claim 1 , and the second sensing electrode wins are linked mutually via an interconnecting part to form a second sensing array claim 1 , Wherein the first sensing array and the second sensing array being mutually insulated.6. The touch panel of claim 5 , further comprising an insulating block disposed between the interconnecting part and the bridging line for insulating the first sensing array and the ...

OPTICAL ADHESIVE, PANEL AND METHOD FOR BONDING SUBSTRATES

An optical adhesive includes a first surface, a second surface, and plural first recessed strips. The first surface is opposite to the first surface. The first recessed strips of the optical adhesive are disposed on the first surface. The optical adhesive has a transmittance greater than 80% in a visible spectrum. 1. An optical adhesive , comprising:a first surface and a second surface opposite to the first surface; anda plurality of first recessed strips disposed on the first surface, wherein the optical adhesive has a transmittance greater than 80% in a visible spectrum.2. The optical adhesive of claim 1 , wherein a side of the first recessed strips adjacent to the first surface has an opening width greater than an opening width of the other side of the first recessed strips away from the first surface.3. The optical adhesive of claim 2 , wherein each of the first recessed strips has a projection on a side surface of the optical adhesive claim 2 , the projection has a shape of semicircle claim 2 , triangle claim 2 , or trapezoid claim 2 , and the side surface connects the first surface and the second surface.4. The optical adhesive of claim 1 , wherein a depth of each of the first recessed strips is equal to or less than half a thickness of the optical adhesive.5. The optical adhesive of claim 1 , further comprising:a plurality of second recessed strips disposed on the second surface.6. The optical adhesive of claim 5 , wherein a sum of a depth of each of the first recessed strips and a depth of each of the second recessed strips is equal to or less than half a thickness of the optical adhesive.7. The optical adhesive of claim 1 , wherein each of the first recessed strips has an end extending to a side surface of the optical adhesive and the other end extending to the other side surface of the optical adhesive opposite to the side surface.8. The optical adhesive of claim 1 , wherein a viscosity of the optical adhesive is in a range from about 40 Newton-seconds per ...

Touch panel and three-dimensional cover plate thereof

A three-dimensional cover plate includes a transparent substrate, a side panel, and a first binding layer. The side panel is bonded to a part of the transparent substrate, and the first binding layer is disposed between the transparent substrate and the side panel to bond the transparent substrate and the side panel.

Touch panel with fingerprint identification

A touch panel with fingerprint identification includes a fingerprint identification module disposed in a through hole of a first substrate. The fingerprint identification module and the first substrate are attached to a second substrate.

TOUCH 3D-SIGNAL INPUT EQUIPMENT AND MULTI-FUNCTION TOUCH PANEL

A touch 3D-signal input equipment and a multi-function touch panel are introduced. The touch 3D-signal input equipment includes a substrate, a plurality of signal sensing units, a plurality of input wires, and a plurality of output wires. The signal sensing units are arranged in array on the substrate to detect a plane position and a pressure magnitude of a touch signal simultaneously. The input wires and the output wires are electrically connected to any one of the signal sensing units and a signal processing unit, respectively. The touch 3D-signal input equipment can detect touch position and magnitude of the touch strength at the same time, achieving three dimensional (3D) signal input recognition. 1. A touch 3D-signal input equipment , comprising:a substrate;a plurality of signal sensing units, arranged in array on the substrate to simultaneously detect a plane position and a pressure magnitude of a touch signal; anda plurality of input wires and a plurality of output wires, wherein the input wires and the output wires are electrically connected to any one of the signal sensing units and a signal processing unit, respectively.2. The touch 3D-signal input equipment of claim 1 , wherein a size of the signal sensing units ranges from 25 mmto 225 mm.3. The touch 3D-signal input equipment of claim 1 , wherein the signal sensing units detect a touch position and a pressure magnitude by detecting a resistance variation of the signal sensing units induced by deformation.4. The touch 3D-signal input equipment of claim 3 , wherein the signal sensing units are arranged in radiative shape claim 3 , jagged shape claim 3 , or flower shape.5. The touch 3D-signal input equipment of claim 3 , wherein the signal sensing units are formed by a bended wire claim 3 , and a width of the bended wire ranges from 3 μm to 500 μm.6. The touch 3D-signal input equipment of claim 1 , wherein the signal sensing units detect a touch position and a pressure magnitude by detecting a capacitance ...

LIGHT GUIDING LIQUID GLUE AND A TOUCH SENSITIVE DISPLAY USING THE SAME

A light guiding liquid glue and a touch sensitive display using the same are provided. The light guiding liquid glue includes a liquid glue and a plurality of light guiding particles dispersed in the liquid glue, wherein volume percent of the light guiding particles in the light guiding liquid glue ranges between 10% and 50%. The light guiding particles have a light scattering property, which can transfer a linear light into a flat light, and therefore the light guiding liquid glue of the present disclosure has a light guiding property. The touch sensitive display includes a display panel and a touch panel. The light guiding liquid glue is disposed between the display panel and the touch panel, which can transmit evenly lights emitted from the display panel to outside of the touch sensitive display 1. A light guiding liquid glue comprising:a liquid glue; anda plurality of light guiding panicles diffused in the liquid glue.2. The light guiding liquid glue according to claim 1 , wherein volume percent of the light guiding particles in the light guiding liquid glue ranges from 10% to 50%.3. The light guiding liquid glue according to claim 1 , wherein diameter of every light guiding particle is between 30 nm and 5 μm.4. The light guiding liquid glue according to claim 1 , wherein material of the light guiding particles comprises one or more of organic transparent material or inorganic transparent material.5. The light guiding liquid glue according to claim 1 , wherein material of the light guiding particles is selected from a group consisting of silica dioxide claim 1 , aluminum oxide claim 1 , titanium dioxide claim 1 , glass powder claim 1 , and transparent resin particle.6. The light guiding liquid glue according to claim 1 , wherein the liquid glue comprises a liquid optical glue.7. The light guiding liquid glue according to claim 1 , wherein material of the liquid glue comprises one or more of acrylic high-polymer claim 1 , acrylate resin claim 1 , and epoxy resin. ...

STRUCTURE OF A TOUCH PANEL AND A MANUFACTURING METHOD THEREOF

The present disclosure relates to a touch technology, and more particularly to structure of a touch panel and a manufacturing method thereof. The structure of the touch panel comprises: a sensing layer; and a plurality of surrounding circuits that are disposed in surrounding area of the sensing layer. The surrounding circuits are connected to the sensing layer, wherein the surrounding circuits are made of a transparent conductive material. The transparent conductive material provides good conductivity and reduces visibility of the surrounding circuits, and thus the requirement for a transparent touch panel is met. 1. A structure of a touch panel , comprising:a sensing layer; anda plurality of surrounding circuits disposed in surrounding area of the sensing layer and connected to the sensing layer, wherein the plurality of surrounding circuits are made of a transparent conductive material.2. The structure of the touch panel of claim 1 , wherein the sensing layer comprises first sensing electrodes disposed along a first axis claim 1 , second sensing electrodes disposed along a second axis claim 1 , and an insulation layer disposed between the first sensing electrodes and the second sensing electrodes.3. The structure of the touch panel of claim 2 , wherein the first sensing electrodes comprise a plurality of first conductive units and a plurality of first conductive wires that connect the first conductive units claim 2 , and the second sensing electrodes comprise a plurality of second conductive units and a plurality of second conductive wires that connect the second conductive units.4. The structure of the touch panel of claim 3 , wherein the insulation layer comprises a plurality of insulation blocks claim 3 , wherein each insulation block is disposed between the first conductive wire and the second conductive wire.5. The structure of the touch panel of claim 4 , wherein the first conductive units claim 4 , the second conductive units claim 4 , and the first ...

Touch display device and a method of manufacturing the same

The present disclosure relates to a touch display device and a method of manufacturing the same. The touch display device comprises a touch panel, a display module and a first adhesive layer formed by an ultraviolet-curing liquid adhesive, wherein the first adhesive layer laminates the touch panel and the display module. The touch display device further comprises of a lens and a second adhesive layer, wherein the second adhesive layer laminates the touch substrate layer and the lens. The present disclosure overcomes shading effect by curing the first adhesive layer and the second adhesive layer by adjusting the order of laminating the display module with the touch substrate and the lens so as to improve yield of lamination between the touch panel and the display module.

TOUCH DEVICE AND FABRICATION METHOD THEREOF

The present disclosure relates to a touch technology, and more particularly to a touch device and a fabrication method thereof. The touch device comprises a sensing area and a peripheral area. The touch device further comprises a sensing electrode layer, a shading layer, a signal transmission line layer, and a conductive layer. The sensing electrode layer extends from the sensing area to the peripheral area. The shading layer is disposed on the peripheral area to overlay the sensing electrode layer and has a through hole to expose a portion of the sensing electrode layer. The signal transmission line layer is disposed on the shading layer and does not cover the through hole. The conductive layer fills the through hole and electrically connects the sensing electrode layer. In addition, a fabrication method of a touch device is also provided. 1. A touch device , comprising a sensing area and a peripheral area surrounding the sensing area , further comprising:a sensing electrode layer extending from the sensing area to the peripheral area;a first shading layer disposed on the peripheral area and overlaying the sensing electrode layer disposed on the peripheral area, wherein the first shading layer has a through hole to expose a part of the sensing electrode layer disposed on the peripheral area;a signal transmission line layer disposed on the first shading layer without covering the through hole; anda conductive layer filled in the though hole of the first shading layer until conductive material overflows, wherein the conductive layer is electrically connected to the sensing electrode layer and the signal transmission line layer.2. The touch device of claim 1 , wherein the conductive layer overflows surface of the first shading layer.3. The touch device of claim 2 , wherein a side face of the overflow part of the conductive layer is in contact with a side face of the signal transmission line layer for electrical connection.4. The touch device of claim 3 , wherein ...

LAMINATING STRUCTURE, ELECTRONIC DEVICE HAVING THE LAMINATING STRUCTURE AND LAMINATING METHOD THEREOF

A laminating structure, an electronic device having the laminating structure and a laminating method thereof are provided. The laminating structure comprises a bonding frame disposed on a peripheral area of a first substrate, wherein surface of the bonding frame comprises a plurality of protrusions and an interspace that is provided between each two adjacent protrusions for containing an overflow portion of a liquid adhesive. The present disclosure utilizes a method of forming a patterned bonding frame to prevent adhesive from overflowing during the process of laminating substrates. Therefore, in the present disclosure, steps of adhesive scraping and adhesive cleaning are omitted so as to reduce labor and material costs. 1. A laminating structure , comprising:a bonding frame disposed on peripheral area of a first substrate, wherein a surface of the bonding frame comprises a plurality of protrusions and an interspace that is provided between each two adjacent protrusions for containing overflow portion of a liquid adhesive.2. The laminating structure of claim 1 , wherein the first substrate further comprises a laminating area surrounded by the bonding frame claim 1 , and the liquid adhesive is spread over the laminating area to form a liquid adhesive layer for laminating a second substrate to the first substrate.3. The laminating structure of claim 2 , wherein the laminating structure is disposed in an electronic device comprising a touch panel or a display panel.4. The laminating structure of claim 1 , wherein the protrusions are continuously aligned with equal spaces.5. The laminating structure of claim 1 , wherein the protrusions are indented or have a bead chain-like structure.6. The laminating structure of claim 1 , wherein the bonding frame is a high polymer adhesive having elasticity.7. The laminating structure of claim 1 , wherein the bonding frame is formed from an adhesive.8. An electronic device having a laminating structure claim 1 , comprising:a first ...

TOUCH DEVICE AND FABRICATION METHOD THEREOF

The embodiments of the present disclosure provide a touch device having a sensing area and a peripheral area around the peripheral area. The touch device comprises a sensing electrode layer, a shading layer, and a signal transmission line, wherein the shading layer is disposed on the peripheral area and the sensing electrode layer. The shading layer has a hollow part and wholly overlays the peripheral area. The signal transmission line is disposed on the shading layer and filled in the hollow part. The signal transmission line is electrically connected to the sensing electrode layer through the shading layer beneath the hollow part. In addition, a fabrication method of the touch device is also provided. 1. A touch device , comprising:a sensing electrode layer disposed on a sensing area and a peripheral area surrounding the sensing area;a shading layer overlaying the sensing electrode layer at the peripheral area and having a hollow part; anda signal transmission line disposed on the shading layer and filled in the hollow part,wherein the signal transmission line is electrically connected to the sensing electrode layer through the shading layer beneath the hollow part.2. The touch device of claim 1 , wherein the shading layer located beneath the hollow part has a first thickness claim 1 , and the shading layer located outside the area beneath the hollow part has a second thickness claim 1 , wherein the first thickness is less than the second thickness.3. The touch method of claim 2 , wherein the shading layer with the first thickness has electrical conductivity and the shading layer with the second thickness is electrically insulated.4. The touch device of claim 1 , wherein material of the shading layer comprises black photo-resist or black printing ink.5. The touch device of claim 1 , wherein the shading layer comprises:a first shading layer disposed on the sensing electrode layer and having an electrical conductivity; anda second shading layer disposed on the first ...

TOUCH SENSING PANEL

A touch sensing panel is provided in the present disclosure. The touch sensing panel comprises a sensing pattern layer and a plurality of bridging wires disposed on the sensing pattern layer, wherein each bridging wire has a top surface with low reflectivity. The sensing pattern comprises a plurality of first sensing pads and a plurality of second sensing pads, wherein the plurality of first sensing pads are connected by the bridging wires to form first sensing arrays, the plurality of second sensing pads are connected by connection parts to form second sensing arrays, and the first sensing arrays are insulated from the second sensing arrays. Reflectivity of the top surfaces of the bridging wires is comparatively low and therefore light from external sources is not easily reflected by the bridging wires, thereby reducing the influence of light spots in image quality. 1. A touch sensing panel , comprising:a sensing pattern layer at least comprising a plurality of sensing pads along a same direction; anda plurality of bridging wires electrically connecting the sensing pads, wherein each bridging wire has a top surface with low reflectivity.2. The touch sensing panel as claimed in claim 1 , further comprising a substrate claim 1 , wherein the sensing pattern layer is disposed on the substrate.3. The touch sensing panel as claimed in claim 1 , wherein the sensing pattern layer comprises a plurality of first sensing pads arranged along a first axis and a plurality of second sensing pads arranged along a second axis claim 1 , the plurality of first sensing pads being electrically connected by the bridging wires to form first sensing arrays claim 1 , the plurality of second sensing pads being connected by connection parts to form second sensing arrays claim 1 , and the first sensing arrays being insulated from the second sensing arrays.4. The touch sensing panel as claimed in claim 3 , further comprising an insulation sheet disposed between the connection part and the ...

CONDUCTIVE FILM OF A TOUCH PANEL AND MANUFACTURING METHOD THEREOF

The present disclosure provides a conductive film of a touch panel. The conductive film has a film and a plurality of a plurality of hydrophobic units. The film is used for sensing touch signals, and the hydrophobic units are disposed in the film with intervals. Conductive material of the conductive film of the touch panel is distributed outside the region of the hydrophobic units, and as the hydrophobic units have good light transmittance, the touch panel of the present disclosure has a characteristic of high light transmittance. 1. A touch panel having a conductive film with high light transmittance , comprising:a substrate; and a plurality of electrodes formed of a patterned conductive film;', 'a plurality of conducting wires electrically connected with the electrodes; and, 'an electrode layer disposed on the substrate, wherein the electrode layer comprisesa plurality of hydrophobic units disposed in the electrodes with intervals to make the touch panel have high light transmittance and can sense users' touch.2. The touch panel of claim 1 , wherein the electrodes comprise:first electrode arrays distributed along a first axis and second electrode arrays distributed along a second axis, wherein the first electrode arrays and the second electrode arrays are electrically insulated from each other, and wherein the first electrode arrays and the second electrode arrays are electrically connected with the plurality of conducting wires.3. An electrode layer of a touch panel claim 1 , comprising:a plurality of electrodes formed of a patterned conductive film; anda plurality of hydrophobic units disposed in the electrodes with intervals to make the electrode layer have high light transmittance.4. The electrode layer of claim 3 , wherein the electrodes comprise:first electrode arrays distributed along a first axis and second electrode arrays distributed along a second axis, wherein the first electrode arrays and the second electrode arrays are electrically insulated from ...

Touch panel and manufacturing method thereof

A touch panel includes a strengthen cover lens and a touch electrode layer. The strengthen cover lens includes a first non-planar sulfate, and is planned with a display region and a peripheral region surrounding the display region. The touch electrode layer is formed, on the first non-planar surface and overlaid on the display region and at least part of the peripheral region for manufacturing a non-planar touch panel.

TOUCH PANEL MODULE, TOUCH DEVICE AND MANUFACTURING METHOD THEREOF

A touch panel module includes a substrate, a sensor layer disposed on the substrate, a first glue layer disposed on the sensor layer and an anti-electromagnetic interference layer disposed on the first glue layer. The touch panel module with anti-electromagnetic interference can be formed independently, and may be combined with other electronic device to form a touch device, thereby reducing the thickness of the touch device and simplifying the process steps. 1. A touch panel module , comprising:a sensing layer disposed on a substrate;a first adhesive layer disposed on the sensing layer; andan anti interference conductive layer, disposed on and directly formed on the first adhesive layer.2. The touch panel module of claim 1 , further comprising a protective layer disposed between the first adhesive layer and the sensing layer.3. The touch panel module of claim 1 , further comprising a flat film disposed between the substrate and the sensing layer.4. The touch panel module of claim 1 , further comprising a shading frame disposed between the substrate and the sensing layer.5. The touch panel module of claim 1 , wherein the material of the anti interference conductive layer is indium tin oxides (ITO) claim 1 , indium zinc oxide (IZO) claim 1 , or zinc oxide doping 3 oxidation 2 aluminum (AZO).6. The touch panel module of claim 1 , wherein the material of the anti interference conductive layer is nano silver claim 1 , carbon nano tube (CNT) claim 1 , silver glue claim 1 , or poly(3 claim 1 ,4-ethylenedioxythiophene) poly (styrene sulfonate) (PEDOT:PSS).7. A touch device claim 1 , comprising:a touch panel module comprises a sensing layer disposed on a substrate, a first adhesive layer disposed on the sensing layer and an anti interference conductive layer formed on the first adhesive layer directly;an electric device;a second adhesive layer disposed between the anti interference conductive layer and the electric device.8. The touch device of claim 7 , wherein the ...

Touch panel and fabrication method thereof

A touch panel is provided. The touch panel is defined as having a viewable area and a non-viewable area. The touch panel includes a protection cover and a sensing electrode layer. The protection cover includes a strengthened substrate and a functional protection layer formed on the strengthened substrate in the viewable area. The sensing electrode layer is formed on the surface of the functional protection layer in the viewable area. The disposition of the functional protection layer prevents the sensing electrode layer from failing in a broken circuit, which occurs due to the strengthened substrate chipping or cracking. Thus, the reliability of the touch panel is enhanced. Further, a method for fabricating the touch panel is also provided.

TOUCH PANEL, OPTICAL MATCHING GLUE APPLIED IN TOUCH PANEL AND MANUFATURING METHOD THEREOF

A touch panel, comprises a substrate, a sensing layer disposed on the substrate, wherein the sensing layer includes a plurality of electrode patterns disposed on at least one surface of the substrate, and arranged in interval; an optical matching glue disposed on the sensing layer and filled in the intervals, wherein the refractive index of the optical matching glue matches the refractive index of the sensing layer. The present invention further comprises an optical matching glue and the manufacturing method thereof. When using the touch panel of the present invention, the defects of appearance caused by the refractive index difference between the electrode pattern and the intervals can be reduced without any additional process. 1. A touch panel , comprising:a substrate;a sensing layer disposed on the substrate, wherein the sensing layer includes a plurality of electrode patterns disposed on at least one surface of the substrate and arranged in intervals; andan optical matching glue disposed on the sensing layer and filled in the intervals, wherein the refractive index of the optical matching glue matches the refractive index of the sensing layer.2. The touch panel of claim 1 , wherein the electrode patterns comprise a plurality of first electrode patterns arranged along a first direction claim 1 , and a plurality of second electrode patterns arranged along a second direction claim 1 , and each first electrode pattern and each second electrode pattern is electrically isolated from one another through an insulating layer.3. The touch panel of claim 1 , wherein the substrate is a cover lens claim 1 , and the surface opposite to the surface where the sensing layer is disposed on is a touching surface.4. The touch panel of claim 1 , further comprising a cover lens with optical matching glue disposed between the substrate and the cover lens claim 1 , wherein the substrate and the cover lens are attached to each other through the optical matching glue.5. The touch panel ...

TOUCH DEVICE AND FABRICATION METHOD THEREOF

A touch device is provided. The touch device includes a decorative layer formed on at least one side of a sensing electrode layer and disposed for corresponding to the sensing electrode layer to constitute a vacant space, a signal-conveying trace disposed on the decoration layer, an insulating layer formed to fill the vacant space, and a conductive layer formed on the insulating layer and bridging over the sensing electrode layer and the decorative layer through the buffer function of the insulating layer for electrically connecting the sensing electrode layer with the signal-conveying trace. Further, a method for fabricating the touch device is also provided. 1. A touch device , comprising:a sensing electrode layer;a decorative layer formed on at least one side of the sensing electrode layer and disposed for corresponding to the sensing electrode layer to constitute a vacant space;a signal-conveying trace disposed on the decorative layer;an insulating layer formed to fill the vacant space; anda conductive layer formed on the insulating layer and bridging over the sensing electrode layer and the decorative layer through the insulating layer for electrically connecting the sensing electrode layer with the signal-conveying trace.2. The touch device of claim 1 , wherein the decorative layer is adjacent to the sensing electrode layer or overlaps the sensing electrode layer.3. The touch device of claim 1 , wherein the conductive layer is disposed between the insulating layer and the signal-conveying trace and the signal-conveying trace stretches over the conductive layer.4. The touch device of claim 1 , wherein the conductive layer stretches over the signal-conveying trace.5. The touch device of claim 1 , wherein the material of the conductive layer comprises a metal or a transparent conductive material.6. The touch device of claim 1 , wherein the conductive layer has a pattern comprising one strip or a plurality of strips claim 1 , and the strip has a shape of rectangle ...

Touch panel and a manufacturing method thereof

A touch panel is provided in the present disclosure, comprising: a sensing patterned layer, comprising a plurality of first sensing electrode units not in contact with each other along first axis; and a bridging line, electrically connected with the adjacent first sensing electrode units along the first axis; wherein the bridging line are made by at least a metallic layer and a conductive oxidized layer. By this way the touch panel lowers light reflection, thereby reducing flashes and bright-spots on the touch panel and improving appearance of the touch panel.

METHOD OF MANUFACTURING A TOUCH PANEL

The present disclosure relates to a method of manufacturing a touch panel, and more particularly, to a manufacturing method capable of strengthening the strength of the touch panel. The method comprises: sinking and then strengthening a glass substrate, and then conducting a manufacturing process of placing a sensing electrode array. Finally, the glass substrate is cut and produced into several touch panels, each having strengthening properties. 1. A method of manufacturing a touch panel , comprising:sinking to form at least one groove on a glass substrate, wherein, the groove comprises a base side and two inclining lateral sides;strengthening surface of the glass substrate; andcutting the glass substrate based on position of the base side.2. The method of manufacturing the touch panel of claim 1 , wherein the grooves are paired and sunken claim 1 , simultaneously on an upper surface and a lower surface of the glass substrate.3. The method of manufacturing the touch panel of claim 1 , wherein the base side is a flat surface or a curved concave surface.4. The method of manufacturing the touch panel of claim 1 , wherein the glass substrate is sunken to form the groove through etching claim 1 , carving or molding mechanism.5. The method of manufacturing the touch panel of claim 1 , wherein the step of strengthening the glass substrate adopts a means of chemical strengthening.6. The method of manufacturing the touch panel of claim 1 , wherein the step of cutting the glass substrate further comprises forming a cut plane.7. The method of manufacturing the touch plane of claim 6 , wherein the inclining lateral sides are connected between surface of the glass substrate and the cut plane to form a chamfer angle.8. The method of manufacturing the touch panel of claim 6 , wherein after the step of cutting the glass substrate claim 6 , the method further comprises: smoothing the cut plane.9. The method of manufacturing the touch panel of claim 1 , wherein after the step of ...

OPTICAL BONDING APPARATUS, TOUCH SENSITIVE DISPLAY USING THE SAME AND METHOD OF MAKING THE SAME

The present invention discloses an optical bonding apparatus, including: a first bonding layer; a second bonding layer; and a dismountable bonding layer superposed between the first bonding layer and the second bonding layer. The present invention also discloses a touch sensitive display using the optical bonding apparatus and a method of making the optical bonding apparatus. 1. An optical bonding apparatus , comprising:a first bonding layer;a second bonding layer; anda dismountable bonding layer superposed between the first bonding layer and the second bonding layer.2. The optical bonding apparatus according to claim 1 , wherein the dismountable bonding layer is an extend-to-disassemble bonding layer.3. The optical bonding apparatus according to claim 1 , wherein the dismountable bonding layer is a heat-to-disassemble bonding layer.4. The optical bonding apparatus according to claim 1 , wherein the dismountable bonding layer is an ultra violet exposing-to-disassemble bonding layer.5. The optical bonding apparatus according to claim 1 , wherein the first bonding layer and the second bonding layer are both thermal flow bonding layer.6. The optical bonding apparatus according to claim 1 , wherein the first bonding layer is a pressure sensitive bonding layer claim 1 , and the second bonding layer is a thermal flow bonding layer.7. The optical bonding apparatus according to claim 1 , wherein the first bonding layer is a thermal flow bonding layer claim 1 , and the second bonding layer is a pressure sensitive bonding layer.8. A touch sensitive display using an optical bonding apparatus claim 1 , comprising:a touch panel;a display panel; andan optical bonding apparatus configured for bonding the touch panel and the display panel, wherein the optical bonding apparatus comprises a first bonding layer, a second bonding layer and a dismountable bonding layer superposed between the first bonding layer and the second bonding layer.9. The touch sensitive display according to ...

TOUCH DEVICE

A touch device includes a cover plate, a substrate, a first adhesive layer and a strengthening glue. The cover plate and the substrate each has first and second opposite surfaces and a side surface between the first surface and the second surface. The first adhesive layer is located between the second surface of the cover plate and the first surface of the substrate. A space is formed between the side surface of the first adhesive layer, the second surface of the cover plate and the first surface the substrate a space. The space is filled with the strengthening glue. The cover plate and the substrate are fully bonded to enhance the strength, the compression resistance and the impact resistance of the touch device. Further the accuracy requirement for the first adhesive layer is lowered and the material of the first adhesive layer is saved. 1. A touch device , comprising:a cover plate, having a first surface and a second surface opposite to each other, and further having a side surface adjacent to the first surface and the second surface of the cover plate;a substrate, having a first surface and a second surface opposite to each other, and further having a side surface adjacent to the first surface and the second surface of the substrate;a first adhesive laver, located between the second surface of the cover plate and the first surface of the substrate, wherein a space is formed between the side surface of the first adhesive layer, the second surface of the cover plate and the first surface of the substrate; anda strengthening glue, wherein the space is filled with the strengthening glue.2. The touch device of claim 1 , wherein the strengthening glue extends to partially cover the side surface of the cover plate and the side surface of the substrate.3. The touch device of claim 1 , wherein the material of the strengthening glue is a liquid glue formed by solidification.4. The touch device of claim 3 , wherein the viscosity of the strengthening glue is 500˜1200 mPa·s ...

Touch panel module, touch device and manufacturing method thereof

A touch panel module includes a substrate, a sensor layer disposed on the substrate, a first glue layer disposed on the sensor layer and an anti-electromagnetic interference layer disposed on the first glue layer. The touch panel module with anti-electromagnetic interference can be formed independently, and may be combined with other electronic device to form a touch device, thereby reducing the thickness of the touch device and simplifying the process steps.

TOUCH PANEL AND A MANUFACTURING METHOD THEREOF

A touch panel and a method of manufacturing the same are provided. The touch panel comprises: a cover substrate comprising a visible area and a non-visible area, wherein the non-visible area is located in a peripheral area of the visible area; an electrode layer formed on the visible area and the non-visible area of the cover substrate; a conductive masking layer formed on the non-visible area and disposed on a part of the electrode layer that is located on the non-visible area; and a plurality of connecting wires formed on the conductive masking layer and electrically connected to the electrode layer through uniaxial conduction of the conductive masking layer. The present disclosure comprises a method of manufacturing the touch panel. Accordingly, product yield is increased and touch sensing precision is maintained. 1. A touch panel , comprising:a cover substrate comprising a visible area and a non-visible area, wherein the non-visible area is located in a peripheral area of the visible area;an electrode layer formed on the visible area and the non-visible area of the cover substrate;a conductive masking layer formed on the non-visible area and disposed on a part of the electrode layer located on the non-visible area; anda plurality of connecting wires formed on the conductive masking layer and electrically connected to the electrode layer through uniaxial conduction of the conductive masking layer.2. The touch panel of claim 1 , wherein the electrode layer comprises a plurality of first sensing electrodes aligned along a first axis and a plurality of second sensing electrodes aligned along a second axis claim 1 , and wherein the first sensing electrodes and the second sensing electrodes are insulated from each other.3. The touch panel of claim 2 , wherein each of the first sensing electrodes comprises a plurality of first conductive units and a plurality of first conductive wires connecting two adjacent first conductive units on the first axis claim 2 , and ...

TOUCH PANEL AND A MANUFACTURING METHOD THEREOF

The present disclosure provides a method for manufacturing a touch panel, wherein the method comprises: forming a touch sensing layer on a visible region and a non-visible region of a cover substrate, wherein the non-visible region is located at periphery of the visible region forming a first opaque insulating layer on the touch sensing layer in the non-visible region; forming a wiring layer on the first opaque insulating layer: and forming a conductive layer to electrically connect the wiring layer and the touch sensing layer. Moreover, the present disclosure also provides a touch panel. Accordingly, the touch sensing accuracy is maintained, and the production rate is improved. 1. A method for manufacturing a touch panel , comprising:forming a touch sensing layer on a visible region and a non-visible region of a cover substrate, wherein the non-visible region is located at periphery of the visible region;forming a first opaque insulating layer on the touch sensing layer in the non-visible region;forming a wiring layer on the first opaque insulating layer; andforming a conductive layer to electrically connect the wiring layer and the touch sensing layer.2. The method for manufacturing the touch panel as claimed in claim 1 , Wherein the step of forming the wiring layer on the first opaque insulating layer further comprises:forming a common opening in the wiring layer and the first opaque insulating layer, Wherein. the common opening exposes a part of the touch sensing layer in the non-visible region.3. The method for manufacturing the touch panel as claimed in claim 2 , wherein the step of forming the conductive layer further comprises:filling the conductive layer into the common opening to electrically connect the wiring layer and the exposed touch sensing layer in the non-visible region.4. The method for manufacturing the touch panel as claimed in claim 3 , wherein the conductive layer is a transparent conductive layer claim 3 , and wherein the method further ...

CCONDUCTIVE FILM OF A TOUCH PANEL AND MANUFACTURING METHOD THEREOF

The present disclosure provides a conductive film of a touch panel. The conductive film has a film and a plurality of a plurality of hydrophobic units. The film is used for sensing touch signals, and the hydrophobic units are disposed in the film with intervals. Conductive material of the conductive film of the touch panel is distributed outside the region of the hydrophobic units, and as the hydrophobic units have good light transmittance, the touch panel of the present disclosure has a characteristic of high light transmittance. 1. A touch panel having a conductive film with high light transmittance , comprising:a substrate; andan electrode layer disposed on the substrate, wherein the electrode layer comprises:a plurality of electrodes formed of a patterned conductive film;a plurality of conducting wires electrically connected with the electrodes; anda plurality of hydrophobic units disposed in the electrodes with intervals to make the touch panel have high light transmittance and can sense users' touch.2. The touch panel of claim 1 , wherein the electrodes comprise:first electrode arrays distributed along a first axis and second electrode arrays distributed along a second axis, wherein the first electrode arrays and the second electrode arrays are electrically insulated from each other, and wherein the first electrode arrays and the second electrode arrays are electrically connected with the plurality of conducting wires.3. An electrode layer of a touch panel claim 1 , comprising:a plurality of electrodes formed of a patterned conductive film; anda plurality of hydrophobic units disposed in the electrodes with intervals to make the electrode layer have high light transmittance.4. The electrode layer of claim 3 , wherein the electrodes comprise:first electrode arrays distributed along a first axis and second electrode arrays distributed along a second axis, wherein the first electrode arrays and the second electrode arrays are electrically insulated from each ...

TOUCH PANEL AND THREE-DIMENSIONAL COVER PLATE THEREOF

A three-dimensional cover plate includes a transparent substrate, a side panel, and a first binding layer. The side panel is bonded to a part of the transparent substrate, and the first binding layer is disposed between the transparent substrate and the side panel to bond the transparent substrate and the side panel. 1. A three-dimensional cover plate , comprising:a transparent substrate;a side panel bonding to a part of the transparent substrate; anda first binding layer disposed between the transparent substrate and the side panel to bond the transparent substrate and the side panel.2. The three-dimensional cover plate of claim 1 , wherein the first binding layer comprises silicon-oxygen-silicon bonds claim 1 , aluminum-oxygen-silicon bonds or aluminum-oxygen-aluminum bonds.3. The three-dimensional cover plate of claim 1 , wherein the transparent substrate and the side panel are independently formed of glass or sapphire.4. The three-dimensional cover plate of claim 1 , wherein the transparent substrate is a transparent composite substrate claim 1 , comprising:a sapphire substrate;a glass substrate disposed below the sapphire substrate, and the side panel bonding to a part of the glass substrate; anda second binding layer bonding the sapphire substrate and the glass substrate, and the second bonding layer comprising aluminum-oxygen-silicon bonds.5. The three-dimensional cover plate of claim 1 , further comprising an inorganic material layer disposed between the first binding layer and the side panel claim 1 , and the first binding layer comprising silicon-oxygen-silicon bonds.6. The three-dimensional cover plate of claim 5 , wherein the inorganic material layer is a silicon layer or a silicon dioxide layer.7. The three-dimensional cover plate of claim 5 , wherein the inorganic material layer has a thickness equal to or greater than 1 um.8. The three-dimensional cover plate of claim 1 , wherein the transparent substrate has a lower surface claim 1 , and an upper ...

TRANSPARENT COMPOSITE SUBSTRATE, PREPARATION METHOD THEREOF AND TOUCH PANEL

A transparent composite substrate includes a first transparent substrate, a second transparent substrate, and a binding layer bonding the first transparent substrate and the second transparent substrate with a bond therebetween. 1. A transparent composite substrate , comprising:a first transparent substrate;a second transparent substrate; anda binding layer bonding the first transparent substrate and the second transparent substrate with a bond therebetween.2. The transparent composite substrate of claim 1 , wherein the binding layer comprises silicon-oxygen-silicon bonds claim 1 , aluminum-oxygen-silicon bonds or aluminum-oxygen-aluminum bonds.3. The transparent composite substrate of claim 1 , wherein the first transparent substrate and the second transparent substrate are independently selected from a glass substrate or a sapphire substrate.4. The transparent composite substrate of claim 3 , wherein the first transparent substrate is the sapphire substrate claim 3 , and the second transparent substrate is the glass substrate.5. The transparent composite substrate of claim 4 , further comprising an inorganic material layer disposed between the binding layer and the sapphire substrate claim 4 , and the binding layer has silicon-oxygen-silicon bonds.6. The transparent composite substrate of claim 5 , wherein the inorganic material layer is a silicon layer or a silicon dioxide layer.7. The transparent composite substrate of claim 5 , wherein the inorganic material layer has a thickness in a range from about 1 um to about 10 um.8. The transparent composite substrate of claim 4 , wherein the sapphire substrate has a thickness in a range from about 0.1 mm to about 0.3 mm claim 4 , and the glass substrate has a thickness in a range from about 0.2 mm to about 1 mm.9. A method of manufacturing a transparent composite substrate claim 4 , comprising:providing a first transparent substrate and a second transparent substrate;activating surfaces of the first transparent ...

TOUCH PANEL AND MANUFACTURING METHOD THEREOF

A touch panel includes a strengthen cover lens and a touch electrode layer. The strengthen cover lens includes a first non-planar surface, and is planned with a display region and a peripheral region surrounding the display region. The touch electrode layer is formed on the first non-planar surface and overlaid on the display region and at least part of the peripheral region for manufacturing a non-planar touch panel. 1. A touch panel , comprising:a strengthen cover lens including a first non-planar surface and planned with a display region and a peripheral region surrounding the display region; anda touch electrode layer formed on the display region of the first non-planar surface through a patterning process including photoresist spraying and laser exposing.2. The touch panel of claim 1 , wherein the first non-planar surface is a smooth curved surface or a surface which is formed of at least two facets having an angle in between.3. The touch panel of claim 1 , further comprising:a leads structure located in the peripheral region and electrically connected to the touch electrode layer; anda shading layer located fully in the peripheral region and disposed between the strengthen cover lens and the leads structure.4. The touch panel of claim 3 , wherein the leads structure and the shading layer are respectively formed through the patterning process technologies including photoresist spraying and laser exposing.5. The touch panel of claim 3 , further comprising a protective layer located in the display region and the peripheral region for covering the touch electrode layer claim 3 , the shading layer and the leads structure.6. The touch panel of claim 3 , wherein the touch electrode layer comprises:a plurality of first sensing electrodes aligned in parallel along a first axis; anda plurality of second sensing electrodes aligned in parallel along a second axis;wherein, the first sensing electrodes and the second sensing electrodes are staggered and insulated from each ...

Touch device and fabrication method thereof

The present disclosure relates to a touch technology, and more particularly to a touch device and a fabrication method thereof. The touch device comprises a sensing area and a peripheral area. The touch device further comprises a sensing electrode layer, a shading layer, a signal transmission line layer, and a conductive layer. The sensing electrode layer extends from the sensing area to the peripheral area. The shading layer is disposed on the peripheral area to overlay the sensing electrode layer and has a through hole to expose a portion of the sensing electrode layer. The signal transmission line layer is disposed on the shading layer and does not cover the through hole. The conductive layer fills the through hole and electrically connects the sensing electrode layer. In addition, a fabrication, method of a touch device is also provided.

TOUCH PANEL AND FABRICATION METHOD THEREOF

A touch panel and a fabricating method thereof are provided in the instant disclosure. The touch panel having a non-display area and a display area includes a shielding layer disposed on a side of a substrate and defining the non-display area on the substrate; a sensing electrode layer disposed on the substrate at the same side as the shielding layer, wherein at least one portion of the sensing electrode layer is disposed on a surface of the substrate in the display area; a first protecting layer disposed in the display area and covering the sensing electrode layer; and a second protecting layer disposed in the non-display area and covering the shielding layer. By modifying the structure of the protecting layer, the height difference between the sensing electrode layer and the shielding layer may not cause the color difference due to the non-uniform protecting layer. 1. A fabricating method of a touch panel , wherein the touch panel defines a display area and a non-display area , the method comprising:forming a shielding layer on a side of a substrate, wherein an area of the substrate covered by the shielding layer defines the non-display area;forming a sensing electrode layer at the same side as the shielding layer on the substrate, wherein at least a portion of the sensing electrode layer superimposes the display area;forming a first protecting layer at least on the display area to cover the sensing electrode layer; andforming a second protecting layer on non-display area to cover the shielding layer.2. The fabricating method of the touch panel according to claim 1 , wherein the first protecting layer is a refractive index compensating layer claim 1 , and the second protecting layer is an attaching layer.3. The fabricating method of the touch panel according to claim 1 , wherein the first protecting layer further extends to the non-display area claim 1 , and is formed on a surface of the second protecting layer.4. The fabricating method of the touch panel ...

TOUCH PANEL DEVICE AND METHOD FOR MANUFACTURING THE SAME

A touch panel device is provided, having a cover plate, a first mask layer, a signal trace layer and a second mask layer. The cover plate has a visible area and a shield area at a side of the visible area. The shield area is divided into first, second area, third areas sequentially from the visible area to an edge of the shield area. The first mask layer disposed in the first and second areas of the shield area over a surface of the cover plate, wherein the first mask layer has a flat surface. The signal trace layer is disposed in the first area of the shield area over the flat surface. The second mask layer is at least disposed in the third area near the edge of the cover plate. A viscosity of the second mask layer is larger than a viscosity of the first mask layer 1. A touch panel device , comprising:a cover plate having a visible area and a shield area at a side of the visible area, wherein the shield area is divided into a first area, a second area, and a third area sequentially from the visible area to an edge of the shield area;a first mask layer disposed in the first area and the second area of the shield area over a surface of the cover plate, wherein the first mask layer has a flat surface;a signal trace layer disposed in the first area of the shield area over the flat surface of the first mask layer; anda second mask layer at least disposed in the third area near the edge of the cover plate, wherein a viscosity of the second mask layer is larger than a viscosity of the first mask layer.2. The touch panel device as claimed in claim 1 , wherein the viscosity of the first mask layer is in a range from 3 cps to 50 cps claim 1 , and the viscosity of the second mask layer is in a range from 3500 cps to 12000 cps.3. The touch panel device as claimed in claim 1 , wherein the first mask layer is a photoresist layer claim 1 , and the second mask layer is an ink layer.4. The touch panel device as claimed in claim 1 , wherein a color of the first mask layer is the ...

TOUCH PANEL AND METHOD FOR MANUFACTURING

The present disclosure relates to a touch panel, and more particularly, to a touch panel having no or a reduced number of frames. The touch panel includes a substrate, a plurality of first electrodes, and second electrodes, wherein the first electrodes and the second electrodes are disposed on two opposite sides of the substrate, respectively. The first electrodes extend along an initial direction from initial positions and divert from the initial direction to terminate in first termination positions. The second electrodes extend from second initial positions and terminate in second termination positions along a second direction. 1. A touch panel comprising:a substrate having a first side and a second side opposite to the first side;a plurality of first electrodes disposed on the first side of the substrate, wherein the first electrodes extend along a first initial direction from a plurality of first initial positions, and divert from the first initial direction to terminate in a plurality of first termination positions; anda plurality of second electrodes disposed on the second side of the substrate and extending along a second initial direction from a plurality of second initial positions to terminate in a plurality of second termination positions.2. The touch panel of claim 1 , wherein the panel further comprises a transparent sheet material disposed on the substrate claim 1 , and wherein the transparent sheet material has an outside lateral aligned to an outside lateral of the substrate.3. The touch panel of claim 1 , wherein the substrate has a circular structure and an opening is formed between an inside lateral of the substrate and an outside lateral of the substrate claim 1 , and wherein the first initial positions and the first termination positions are located on two opposite sides of the opening.4. The touch panel of claim 3 , further comprising a plurality of first conductive lines located in the opening claim 3 , wherein the first conductive lines ...

CAPACITIVE TOUCH PANEL AND A METHOD OF REDUCING THE VISIBILITY OF METAL CONDUCTORS IN CAPACITIVE TOUCH PANEL

The present invention discloses a capacitive touch panel, comprises a substantially transparent substrate and a transparent sensing pattern. The transparent sensing pattern, which detects touch signals, is formed on the substantially transparent substrate. The transparent sensing pattern comprises a plurality of conductor cells and at least one metal conductor disposed on the substantially transparent substrate. The at least one metal conductor connects two adjacent conductor cells. At least one low-reflection layer is formed on the at least one metal conductor. The low-reflection layer can reduce the reflected light therefore reducing the visibility of the metal conductors. 1. A method of reducing the visibility of metal conductors in a capacitive touch panel , comprising:providing a substantially transparent substrate;providing a plurality of first conductor cells arranged in a first direction, a plurality of second conductor cells arranged in a second direction and a plurality of first electrical conductors disposed on the substantially transparent substrate, wherein each of the first electrical conductors connects adjacent first conductor cells of the plurality of first conductor cells;providing a plurality of insulators, wherein each of the insulators is disposed on a corresponding first electrical conductor of the plurality of first electrical conductors;providing a plurality of second electrical conductors, wherein each of the second electrical conductors is disposed on a corresponding insulator of the plurality of insulators, and each of the second electrical conductors connects adjacent second conductor cells of the plurality of second conductor cells; andproviding a low-reflection strip on each of the plurality of second electrical conductors.2. The method according to claim 1 , wherein the low-reflection strip is made of oxide material or nitride material.3. The method according to claim 2 , wherein the oxide material comprises chromium oxide claim 2 , ...

LIGHT GUIDING LIQUID GLUE AND A TOUCH SENSITIVE DISPLAY USING THE SAME

A light guiding liquid glue and a touch sensitive display using the same are provided. The light guiding liquid glue includes a liquid glue and a plurality of light guiding particles dispersed in the liquid glue, wherein volume percent of the light guiding particles in the light guiding liquid glue ranges between 10% and 50%. The light guiding particles have a light scattering property, which can transfer a linear light into a flat light, and therefore the light guiding liquid glue of the present disclosure has a light guiding property. The touch sensitive display includes a display panel and a touch panel. The light guiding liquid glue is disposed between the display panel and the touch panel, which can transmit evenly lights emitted from the display panel to outside of the touch sensitive display. 1. A method for manufacturing a touch sensitive display , comprising the steps of:providing a display panel;coating a light guiding glue on the surface of the display panel, the light guiding glue comprising a plurality of light guiding particles diffused in a liquid glue;laminating a touch panel to the display panel by the light guiding glue; andsolidifying the light guiding liquid glue after the light guiding liquid glue is disposed between the display panel and the touch panel;wherein the light guiding particles has the capability of converting linear lights into flat lights.2. The method according to claim 1 , wherein diameter of the light guiding particle is between 30 nm and 5 μm.3. The method according to claim 1 , wherein material of the light guiding particles comprises one or more of organic transparent material or inorganic transparent material.4. The method according to claim 1 , wherein material of the light guiding particles is selected from a group consisting of silica dioxide claim 1 , aluminum oxide claim 1 , titanium dioxide claim 1 , glass powder claim 1 , and transparent resin particle.5. The method according to claim 1 , wherein diameter of the light ...

Touch panel

A touch panel includes a substrate, a masking layer, a touch circuit structure, a protective layer and a first shatterproof layer. The substrate has an upper surface and a first lateral surface disposed on the peripheral of the upper surface and extending outward from the upper surface. The masking layer is disposed on an edge of the upper surface. The touch circuit structure is disposed on the upper surface of the substrate. The protective layer covers at least the touch circuit structure and has a second lateral surface. The first shatterproof layer covers the second lateral surface and at least a part of the first lateral surface.

TOUCH PANEL AND FABRICATION METHOD THEREOF

A touch panel and a fabricating method thereof are provided in the instant disclosure. The touch panel having a non-display area and a display area includes a shielding layer disposed on a side of a substrate and defining the non-display area on the substrate; a sensing electrode layer disposed on the substrate at the same side as the shielding layer, wherein at least one portion of the sensing electrode layer is disposed on a surface of the substrate in the display area; a first protecting layer disposed in the display area and covering the sensing electrode layer; and a second protecting layer disposed in the non-display area and covering the shielding layer. By modifying the structure of the protecting layer, the height difference between the sensing electrode layer and the shielding layer may not cause the color difference due to the non-uniform protecting layer. 1. A fabricating method of a touch panel , wherein the touch panel defines a display area and a non-display area , the method comprising:forming a shielding layer on a side of a substrate, wherein an area of the substrate covered by the shielding layer defines the non-display area;forming a sensing electrode layer at the same side as the shielding layer on the substrate, wherein at least a portion of the sensing electrode layer superimposes the display area;forming a first protecting layer at least on the display area to cover the sensing electrode layer; andforming a second protecting layer on non-display area to cover the shielding layer.2. The fabricating method of the touch panel according to claim 1 , wherein the first protecting layer is a refractive index compensating layer claim 1 , and the second protecting layer is an attaching layer.3. The fabricating method of the touch panel according to claim 1 , wherein the first protecting layer further extends to the non-display area claim 1 , and is formed on a surface of the second protecting layer.4. The fabricating method of the touch panel ...

Touch panel and fabrication method thereof

A touch panel and a fabricating method thereof are provided in the instant disclosure. The touch panel having a non-display area and a display area includes a shielding layer disposed on a side of a substrate and defining the non-display area on the substrate; a sensing electrode layer disposed on the substrate at the same side as the shielding layer, wherein at least one portion of the sensing electrode layer is disposed on a surface of the substrate in the display area; a first protecting layer disposed in the display area and covering the sensing electrode layer; and a second protecting layer disposed in the non-display area and covering the shielding layer. By modifying the structure of the protecting layer, the height difference between the sensing electrode layer and the shielding layer may not cause the color difference due to the non-uniform protecting layer.

TOUCH PANEL WITH FINGERPRINT IDENTIFICATION

A touch panel with fingerprint identification includes a fingerprint identification module disposed in a through hole of a first substrate. The fingerprint identification module and the first substrate are attached to a second substrate. 1. A touch panel with fingerprint identification , comprising:a fingerprint identification module, disposed in a through hole of a first substrate,wherein the fingerprint identification module and the first substrate are attached to a second substrate.2. The touch panel with fingerprint identification of claim 1 , further comprising:a first adhesive layer, disposed between the first substrate and the second substrate to attach the first substrate to the second substrate.3. The touch panel with fingerprint identification of claim 2 , further comprising:a second adhesive layer, disposed between the fingerprint identification module and the second substrate to attach the fingerprint identification module to the second substrate.4. The touch panel with fingerprint identification of claim 1 , wherein the fingerprint identification module is fixed in the through hole of the first substrate by goo.5. The touch panel with fingerprint identification of claim 1 , further comprising:a touch sensing structure, disposed on the farther surface of the first substrate to the second substrate.6. The touch panel with fingerprint identification of claim 1 , further comprising:a touch sensing structure, disposed on the closer surface of the first substrate to the second substrate.7. The touch panel with fingerprint identification of claim 1 , further comprising:a touch sensing structure, disposed on the closer surface of the second substrate to the first substrate.8. The touch panel with fingerprint identification of claim 1 , further comprising:a covering layer, disposed on the surface of the second substrate between the first substrate and the second substrate, wherein the orthogonal projection of the covering layer onto the second substrate at least ...

TOUCH PANEL WITH FUNCTION OF FINGERPRINT IDENTIFICATION

A touch panel includes a substrate, a touch sensing structure and a fingerprint identification module. The touch sensing structure is disposed on the substrate. The fingerprint identification module is directly adhered to the substrate. The touch sensing structure and the fingerprint identification module are located at the same side of the substrate. 1. A touch panel , comprising:a substrate;a touch sensing structure, disposed on the substrate; anda fingerprint identification module, adhered to the substrate,wherein the touch sensing structure and the fingerprint identification module are disposed on the same side of the substrate.2. The touch panel of claim 1 , wherein a first adhesive layer is disposed between the fingerprint identification module and the substrate to attach the fingerprint identification module to the substrate.3. The touch panel with function of fingerprint identification of claim 1 , further comprising:a glue, surrounding the fingerprint identification module.4. The touch panel of claim 1 , wherein a masking layer is disposed on the substrate claim 1 , the masking layer is located between the substrate and the fingerprint identification module claim 1 , and the orthographic projection of the masking layer onto the substrate at least covers that of the fingerprint identification module onto the substrate.5. The touch panel of claim 1 , wherein the substrate has a concave portion claim 1 , and the orthographic projections of the concave portion and the fingerprint identification module onto the substrate overlap each other.6. The touch panel of claim 1 , further comprising:a shielding structure, disposed on the substrate and surrounding the fingerprint identification module.7. The touch panel of claim 4 , further comprising:a shielding structure, disposed between the substrate and the masking layer, and surrounding the fingerprint identification module.8. The touch panel of claim 4 , further comprising:a shielding structure, wherein the masking ...

Structure of touch panel

A three-dimensional touch control device

Display module using blue-ray or ultraviolet-ray light sources

The present invention discloses a display module using blue-ray or ultraviolet-ray light sources to excite RGB fluorescent powders to emit light, which comprises a light guide plate, at least one blue-ray or ultraviolet-ray light source, a diffuser plate, a liquid crystal layer and a fluorescent-powder excited layer. The blue-ray or ultraviolet-ray light sources emit a short-wavelength light with the wavelength ranging from 360 to 460 nm; the light guide plate will guide the short-wavelength light to the diffuser plate; the diffuser plate will further diffuse the short-wavelength light; the diffused short-wavelength light will pass through the liquid crystal layer and reach the fluorescent-powder excited layer where the short-wavelength light excites the fluorescent powder to emit light. The excited layer has multiple grids where RGB fluorescent elements are disposed, and each grid has only one single-color fluorescent element. The liquid crystal layer can determine whether the short-wavelength light diffused by the diffuser plate is allowed to pass through a specified grid to excite the fluorescent element to emit light. The present invention combines the advantages of low voltage as in LCD and high brightness as in self-lighting PDP, and the present invention has the benefits of higher brightness, less light loss, and reduced cost.

Conductive film and electrode layer of touch panel and touch panel thereof

Continuous work piece mold equipment and a manufacturing method thereof

一種連續式工件模造設備，包括複數上模仁，分別設置於複數不同之加工工位上；以及單一下模仁，在該複數上模仁之間移動於不同之加工工位，藉由該複數上模仁之運作進行不同之加工作業。本發明還提供一種連續式工件模造方法。採用本發明提供的連續式工件模造設備及方法，採用固定式上模仁及流動式下模仁，簡化了組模、修模過程，并且可對工件連續式成形，提高了生產效率。

Touch device

Touch panel

Touch devices and fabrication methods thereof

Touch panels and fabrication methods thereof

本發明提供觸控面板，定義有可視區及非可視區，其包括保護蓋板和感測電極層，其中保護蓋板又包括強化基板和在可視區中形成於強化基板之表面上的功能保護層，感測電極層在可視區中係形成於功能保護層之表面上。藉由本發明功能保護層的設置，使得感測電極層的功能不會因為強化基板破碎或產生裂痕而斷路失效，進而提升觸控面板的可靠度。另外，本發明還提供觸控面板的製造方法。

The method of preparing the hearth roll with coating layer

Touch panel and three-dimensional cover plate thereof

A three-dimensional cover plate includes a transparent substrate, a side panel, and a first binding layer. The side panel is bonded to a part of the transparent substrate, and the first binding layer is disposed between the transparent substrate and the side panel to bond the transparent substrate and the side panel.

Touch sensor panel

一種觸控感測面板，其包括一感測圖案層，多條橋接線，配置在該感測圖案層上，其中該橋接線具有一低反射率的表面。感測圖案層包括多個第一感測墊和多個第二感測墊，該多個第一感測墊通過該橋接線彼此相連形成第一感測陣列，該多個第二感測墊通過連接部彼此相連形成第二感測陣列，該第一感測陣列和該第二感測陣列之間彼此絕緣。由於上述橋接線表面所具有的反射率較低，因此橋接線不易反射從外界而來的光線，從而減少亮點對畫面品質的影響程度。

タッチセンシティブディスプレイ

【課題】タッチセンシティブディスプレイのカバーガラス板の強度及び耐クラック性を高める方法の提供。 【解決手段】透明ガラスベースのエレメント１１及び高重合体プラスチック膜１２を含み、透明ガラスベースのエレメント１１の外周面の少なくとも一部が、高重合体プラスチック膜１２で縁取られており、高重合体プラスチック膜１２は、液体状態において少なくとも一部で毛管作用を起こし、凝固後に透明ガラスベースのエレメント１１と緊密に結合するカバーガラス板１からなるタッチセンシティブディスプレイ。 【選択図】図１Ｃ

觸控面板及其製造方法

一種觸控面板及其製造方法，觸控面板包括：一上蓋基板，包括一可視區與一非可視區，其中非可視區位於可視區的周邊區域；一電極層，形成於上蓋基板的可視區及非可視區上；一導電遮罩層，形成於非可視區且設置在位於非可視區的部分電極層上；以及複數條連接線，形成於導電遮罩層上，並且透過導電遮罩層的單軸向導通來電連接電極層。本發明包含製造觸控面板之方法。藉此，以達到提升生產良率及維持觸控感測精確度的目的。

觸控面板的製造方法

本發明提供一種觸控面板的製造方法，包括在裁切一玻璃基板之前依序先凹陷成形及強化該玻璃基板，以便應用於感測電極陣列的佈設製程上，最後裁切該玻璃基板，而製成具有倒角設計及化學強化等強度強化之特性的觸控面板。

Berührvorrichtung

Eine Berührvorrichtung, die eine Abdeckplatte, ein Substrat, eine erste Klebeschicht und einen Verstärkungskleber umfasst. Die Abdeckplatte und das Substrat haben jeweils eine erste und eine zweite gegenüberliegende Fläche und jeweils eine Seitenfläche zwischen der ersten Fläche und der zweiten Fläche. Die erste Klebeschicht ist zwischen der zweiten Fläche der Abdeckplatte und der ersten Fläche des Substrats angeordnet. Zwischen der Seitenfläche der ersten Klebeschicht, der zweiten Fläche der Abdeckplatte und der ersten Fläche des Substrats ist ein Raum gebildet. Der Raum ist mit dem Verstärkungskleber gefüllt. Die Abdeckplatte und das Substrat sind vollständig verbunden, um die Festigkeit, die Kompressionsbeständigkeit und die Schlagbeständigkeit der Berührvorrichtung zu verbessern. Weiterhin ist eine Genauigkeitsanforderung für die erste Klebeschicht verringert und wird das Material der ersten Klebeschicht eingespart.

タッチパネル及びその製造方法

【課題】色の違いのような、タッチパネル端部の望ましくない外観が緩和されたタッチパネルを提供する。【解決手段】タッチパネルは、カバープレート１００、光透過性分離層２００、不透明層３００及びタッチ検知層５００を含む。カバープレートは、互いに隣接する内面１１０とプレート側面１３０とを有する。内面は、互いに隣接する第１の部分１１１と第２の部分１１２とを有する。光透過性分離層は、第１の部分を覆い、周辺領域２２０と中心領域２１０とを有する。周辺領域は中心領域を囲む。光透過性分離層は、中心領域から遠いところに光透過性側面を有する。不透明層は、周辺領域を覆い、光透過性側面と実質的に位置合わせされた不透明な外側面を有する。タッチ検知層は中心領域上に位置し、光透過性分離層は、カバープレートとタッチ検知層とを分離する。【選択図】図１

觸控面板及其製造方法

多層板貼合方法與裝置

本發明實施例揭露多層板貼合裝置與方法，利用自然流淌溢滿的方式，使得液態黏膠溢滿於兩基板之間；同時，利用影像擷取裝置與對位模組提供快速的對位矯正，且固化程序可以在對位程序時同步進行固化，使增加對位精確度，使提高產品良率與可靠度。

觸控裝置

Touch panel

觸控面板

タッチデバイス

【課題】タッチデバイスの強度及び耐衝撃性を向上する。 【解決手段】カバープレート１１、基板１２、第１の接着層１３及び強化接着剤１４を備える。カバープレート及び基板は、互いに対向する第１の表面Ｓ１ａ、Ｓ１ｂ、第２の表面Ｓ２ａ、Ｓ２ｂ、及び第１の表面と第２の表面との間の側面Ｓ３ａ、Ｓ３ｂを備える。第１の接着層は、カバープレートの第２の表面と基板の第１の表面との間に配置されている。隙間は、第１の接着剤と、カバープレートの第２の表面と、基板の第１の表面との間に形成されている。隙間は、強化接着剤で満たされている。カバープレート及び基板は、タッチデバイスの強度、耐圧縮性及び耐衝撃性を向上させるために接着されている。また、第１の接着層の精度要求が低く、第１の接着層の材料を節約する。 【選択図】図１Ａ

Apparatus for laminating transparent multi-layers plate and method for preventing liquid glue from overflowing thereof

基板之貼合方法

本發明提供一種基板之貼合方法，包括取用若干小基板與一大基板，經過定位及相互對位後執行一次性貼合而成一結合體，以應用於觸控基板上布設電極等複合層的製程上以及製造雙層觸控面板的製程上。

Test structure and method of step coverage for optical waveguide production

Test structure and method of step coverage for optical waveguide production are disclosed. It combines the steps of producing the optical waveguide and the testing structure by forming the optical waveguide components on the chip and the test structure in the surrounding areas, so the optical waveguide and the test structure have the same upper covering layer. Etching solution is used for the etch testing of the test structure, and the step coverage of the upper covering layer for the optical waveguide is extrapolated by the etching result.

Test structure and method of step coverage for optical waveguide production

Test structure and method of step coverage for optical waveguide production are disclosed. It combines the steps of producing the optical waveguide and the testing structure by forming the optical waveguide components on the chip and the test structure in the surrounding areas, so the optical waveguide and the test structure have the same upper covering layer. Etching solution is used for the etch testing of the test structure, and the step coverage of the upper covering layer for the optical waveguide is extrapolated by the etching result.

Liquid-based gravity-driven etching-stop technique for controlling structure dimension

A liquid-based gravity-driven etching-stop technique for controlling structure dimension is provided, where opposite etching trenches in cooperation with an etching-stop solution are used for controlling the dimension of a microstructure on the wafer level. In an embodiment, opposite trenches surrounding the microstructure are respectively etched on sides of the wafer, and the trench depth on the side of the wafer, on which the microstructure is, is equal to the design dimension of the microstructure. Contrarily, it is unnecessary to define the trench depth on the back-side of the chip. In the final step of the fabrication process, when the device is etched, such that the trenches on the sides communicate with each other to separate the microstructure from the whole wafer automatically and thereby shift from the etchant into the etching-stop solution to stop etching.

A liquid-based gravity-driven etching-stop technique for controlling structure dimension

Liquid-based gravity-driven etching-stop technique for controlling structure dimension

A liquid-based gravity-driven etching-stop technique for controlling structure dimension is provided, where opposite etching trenches in cooperation with an etching-stop solution are used for controlling the dimension of a microstructure on the wafer level. In an embodiment, opposite trenches surrounding the microstructure are respectively etched on sides of the wafer, and the trench depth on the side of the wafer, on which the microstructure is, is equal to the design dimension of the microstructure. Contrarily, it is unnecessary to define the trench depth on the back-side of the chip. In the final step of the fabrication process, when the device is etched, such that the trenches on the sides communicate with each other to separate the microstructure from the whole wafer automatically and thereby shift from the etchant into the etching-stop solution to stop etching.

Transparent composite substrate, preparation method thereof and touch panel

A transparent composite substrate includes a first transparent substrate, a second transparent substrate, and a binding layer bonding the first transparent substrate and the second transparent substrate with a bond therebetween.

Touch panel and manufacture method thereof

A touch panel includes a cover plate, a light transmissive separating layer, an opaque layer and a touch sensing layer. The cover plate has an inner surface and a plate lateral surface adjoined to each other. The inner surface has a first portion and a second portion adjoined to each other. The light transmissive separating layer covers the first portion and has a peripheral zone and a central zone. The peripheral zone surrounds the central zone. The light transmissive separating layer has a light transmissive lateral surface distal to the central zone. The opaque layer covers the peripheral zone and has an opaque outer lateral surface substantially aligned with the light transmissive lateral surface. The touch sensing layer is located on the central zone, and the light transmissive separating layer separates the cover plate and the touch sensing layer.

Touch panel

A touch panel includes a substrate, a masking layer, a touch circuit structure, a protective layer and a first shatterproof layer. The substrate has an upper surface and a first lateral surface disposed on the peripheral of the upper surface and extending outward from the upper surface. The masking layer is disposed on an edge of the upper surface. The touch circuit structure is disposed on the upper surface of the substrate. The protective layer covers at least the touch circuit structure and has a second lateral surface. The first shatterproof layer covers the second lateral surface and at least a part of the first lateral surface.

Touch panel and a manufacturing method thereof

A touch panel and a method of manufacturing the same are provided. The touch panel comprises: a cover substrate comprising a visible area and a non-visible area, wherein the non-visible area is located in a peripheral area of the visible area; an electrode layer formed on the visible area and the non-visible area of the cover substrate; a conductive masking layer formed on the non-visible area and disposed on a part of the electrode layer that is located on the non-visible area; and a plurality of connecting wires formed on the conductive masking layer and electrically connected to the electrode layer through uniaxial conduction of the conductive masking layer. The present disclosure comprises a method of manufacturing the touch panel. Accordingly, product yield is increased and touch sensing precision is maintained.

Touch panel, optical matching glue applied in touch panel and manufacturing method thereof

A touch panel, comprises a substrate, a sensing layer disposed on the substrate, wherein the sensing layer includes a plurality of electrode patterns disposed on at least one surface of the substrate, and arranged in interval; an optical matching glue disposed on the sensing layer and filled in the intervals, wherein the refractive index of the optical matching glue matches the refractive index of the sensing layer. The present invention further comprises an optical matching glue and the manufacturing method thereof. When using the touch panel of the present invention, the defects of appearance caused by the refractive index difference between the electrode pattern and the intervals can be reduced without any additional process.

Conductive film of a touch panel and manufacturing method thereof

The present disclosure provides a conductive film of a touch panel. The conductive film has a film and a plurality of a plurality of hydrophobic units. The film is used for sensing touch signals, and the hydrophobic units are disposed in the film with intervals. Conductive material of the conductive film of the touch panel is distributed outside the region of the hydrophobic units, and as the hydrophobic units have good light transmittance, the touch panel of the present disclosure has a characteristic of high light transmittance.